Hydrogen-rich water stick

ABSTRACT

This disclosure provides a hydrogen-rich water stick shell, a first circuit board disposed in the shell, a battery connected with first circuit board, and three electrolysis rods disposed in shell and connected with first circuit board; three electrolysis rods work alternatively with one anode and two cathodes or one cathode and two anodes under control of first circuit board. When at work, two electrolysis rods are connected to positive electrode of the battery, the other is connected to negative electrode, or two electrolysis rods are connected to negative electrode and the other is connected to positive electrode, forming two anodes and one cathode or two cathodes and one anode. Polarities of three electrolysis rods are alternative, ions in the water is doing alternating motion, alleviating electrolysis stains produced by the ions moving in one direction for long time and improving both the electrolysis efficiency and the working life.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority benefit of Chinese Patent Application No. 201520669388.4 with a filing date of Aug. 31, 2015. The content of the aforementioned application, including any intervening amendments thereto, are incorporated herein by reference.

TECHNICAL FIELD

This disclosure relates to the technical field of living goods, in particular to a hydrogen-rich water stick.

BACKGROUND OF THE PRESENT INVENTION

Existing hydrogen-rich water sticks generally use two electrolytic bars to electrolyze, one of which is positive electrode electrolytic bar, and the other is negative electrode electrolytic bar. In this way, the efficiency of electrolysis is lower and the electrolysis stain is easy to attach on the electrolytic bars, causing a great decrease of electrolyzing ability and working life.

SUMMARY OF PRESENT INVENTION

One objective of the present disclosure is to provide a hydrogen-rich water stick, aiming to solve the problem of low electrolysis efficiency and short working life in the existing technology.

To achieve the objective stated above, the present disclosure provides a hydrogen-rich water stick, comprising: a shell, a first circuit board disposed in the shell, a battery connected with the first circuit board, and three electrolysis rods disposed in the shell and connected with the first circuit board; wherein the three electrolysis rods work alternatively with one anode and two cathodes or one cathode and two anodes under the control of the first circuit board.

Optionally, further comprising a electrolysis rod stand, wherein the electrolysis rod stand comprises a top base, a bottom plate and three side plates connected between the top base and the bottom plate, the three side plates are set in interval, the three electrolysis rods are fixed to the inner side of the three side plates separately.

Optionally, the shell comprises an upper shell and a lower shell, a top base of the electrolysis rod stand is locking connected to a bottom of the upper shell. A lower part of the top base, the three side plates and bottom plate stretch into the lower shell. A top of the lower shell and the lower part of the top base are in detachable connection.

Optionally, the first circuit board is located on an upper part of the upper shell. The battery is disposed below the first circuit board, a bottom of the battery disposed into the top base. A press cake is disposed into the top base, the press cake is provided with a second circuit board which is electrically connected with the three electrolysis rods. The first circuit board is set with an electrical connector which may stretch downward to electrically connect to the second circuit board.

Optionally, the press cake is provided with three first jacks, a top of the three electrolysis rods are stretched into the three first jacks separately. The bottom plate is provided with three second jacks inside the bottom plate, a bottom of three electrical rods are disposed into the three second jacks separately.

Optionally, further comprising an upper bracket, the upper bracket is inserted from the top of the upper shell. The first circuit board is disposed inside the upper shell, the first circuit board is set with a USB charging terminal. The upper bracket is set with a USB charging interface, the USB charging terminal is disposed inside the USB charging interface.

Optionally, further comprising a charging base which is electrically connected with external source. The charging base is provided with a socket, the shell is inserted into the socket after being converted. The socket is provided with a charging touch piece. The first circuit board is provided with a charging terminal which is electrically connected with the charging touch piece.

Optionally, the upper bracket is provided with a light blocking member, the light blocking member is fixed with an indicating light for indicating charging state. The upper shell is provided with a through hole.

Optionally, a top of the shell is provided with a touch switch which is electrically connected to the first circuit board.

Optionally, an external structure of the shell is a handheld rod shape structure.

In the present disclosure, when the hydrogen-rich water stick is working, two of the three electrolysis rods are connected to the positive electrode of the battery, the other is connected to the negative electrode of the battery, or two of the three electrolysis rods are connected to the negative electrode of the battery, and the other is connected to the positive electrode of the battery, namely, forming two anodes and one cathode or two cathodes and one anode in electrolyzing water. Further, under the convert action of the circuit, the polarities of three electrolysis rods are alternative, the ions in the water is doing alternating motion, alleviating the electrolysis stains produced by the ions moving in one direction for a long time. In this way, both the electrolysis efficiency and the working lift are improved.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front view of a hydrogen-rich water stick in an embodiment of the disclosure.

FIG. 2 is a section view of a hydrogen-rich water stick in an embodiment of the disclosure.

FIG. 3 is a section view from another orientation of a hydrogen-rich water stick in an embodiment of the disclosure.

FIG. 4 is an explode view of a hydrogen-rich water stick in an embodiment of the disclosure.

FIG. 5 is a stereoscopic view of a shell and a charging base of a hydrogen-rich water stick in an embodiment in the disclosure;

Therein:

10—shell; 11—upper shell; 12—lower shell; 121—buckle; 13—base; 20—first circuit board; 21—USB charging terminal; 22—charging terminal; 30—battery; 40—electrolysis rod; 50—stand; 51—top base; 52—bottom plate; 53—side plate; 54—press cake; 55—second circuit board; 60—upper bracket; 61—USB charging interface; 70 charging base; 71—socket; 80—light blocking member; 81—indicating light; 90—touch switch; 23—electrical connector.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

In order to illustrate the objective, technical solution and advantages of this disclosure more clearly, the detail description of the disclosure with drawing and embodiments will be described below. To be understood that, the embodiments described here are only used to explain the disclosure, rather than to limit the disclosure.

To be explained that, when an element is “fixed to” or “disposed on” another element, it can be connected with another element directly or through an intermediate member.

Further to be explained that, the direction words including left, right, up and down and so on, only means relative concept or referring to normal service condition, which should not be consider to limit the disclosure.

Referring to FIGS. 1 to 4, the disclosure provides a hydrogen-rich water stick, comprising a rod shell 10, a first circuit board 20 disposed in the shell 10 and a battery 30 connected with the first circuit board 20. The hydrogen-rich water stick further comprises three electrolysis rods 40 disposed in the shell 10 and connected with the first circuit board 20. The electrolysis rods 40 has three electrolysis rods, which work alternatively with one anode and two cathodes or one cathode and two anodes under the control of the first circuit board 20. In this embodiment, shell 10 has a rod shape in whole, and is portable, which is easy to carry and can be used anywhere and anytime.

In the embodiment, the first circuit board 20 connects to the battery 30 conductively, the electrolysis rods is charged with electricity. When putting the electrolysis rods into water, the electrolysis rods can electrolyze the water, producing hydrogen for human body. Two of the three electrolysis rods 40 are connected to the positive electrode of the battery, the other is connected to the negative electrode of the battery, or two of the three electrolysis rods 40 are connected to the negative electrode of the battery, and the other is connected to the positive electrode of the battery, namely, forming two anodes and one cathode or two cathodes and one anode in electrolyzing water. Further, under the convert action of the circuit, the polarities of three electrolysis rods are alternative, the ions in the water is doing alternating motion, alleviating the electrolysis stains produced by the ions moving in one direction for a long time. In this way, the electrolysis efficiency and the working lift are improved.

In this embodiment, hydrogen-rich water stick further comprises a electrolysis rod stand 50, the electrolysis rod stand 50 comprises a top base 51, a bottom plate 52 and three side plates 53 connected between the top base 51 and the bottom plate 52. The three side plates 53 are set in interval, the three electrolysis rods 40 are fixed to the inner side of the three side plates 53 separately. The three side plates 53 set in interval, the two ends of the three side plates 53 are inserted into the top base 51 and the bottom plate 52 separately. Because of the intervals between the three side plates 53. In this way, after being fixed, the three electrolysis rods 40 are half naked. When putting the electrolysis rod stand 50 into the drinking water, the drinking water can get into connection with the three electrolysis rods 40 sufficiently through the gaps between the three side plates 53, thereby electrolyzing the drinking water through the three electrolysis rods 40 sufficiently.

Specifically, the shell 10 comprises a tubular upper shell 11 and a tubular lower shell 12, the outer diameter of the upper shell 11 matches with the outer diameter of the lower shell 12, ensuring a good connection between them. The bottom of the tubular lower shell 12 is sealed by the base 13. The top base 51 of the electrolysis rod stand 50 is locking connected to the bottom of the upper shell 11. The lower part of the top base 51, the three side plates 53 and bottom plate 52 stretch into the lower shell 12, and the top of the lower shell 12 and the lower part of the top base 51 are in detachable connection. As shown in FIGS. 2 and 3, the top of the lower shell 12 is connected to the lower part of the top base 51 through a buckle structure. The lower side wall of the top base 51 is set with a slot 511, and the top inner wall of the lower shell 12 is set with a buckle 121 locked with the slot 511. When the electrolysis rod stand 50 is mounted into the lower shell 12, with the elasticity of the lower shell 12, the buckle 121 is pushed into the slot 511 to lock. When being detached, using the elasticity of the lower shell 12 as well, the lower shell 12 is pulled to separate the buckle 121 from the slot 511. In this way, when electrolyzing, dismount the lower shell 12 and put the lower part of the electrolysis rod stand 50 into water to electrolyze. After electrolysis is completed, put the electrolysis rod stand 50 into the lower shell 12 again. The lower shell 12 can protect the electrolysis rod stand 50 from polluting by external dust, debris and the like.

Specifically, the first circuit board 20 is disposed on the upper part of the upper shell 11. The battery is disposed below the first circuit board 20. The bottom of the battery 30 is disposed into the top base 51. The top base 51 is provided with a press cake 54. Inside the press cake 54 is set with a second circuit board 55 which is electrically connected with the three electrolysis rods 40. The first circuit board 20 is set with an electrical connector which may stretch downward to electrically connect to the second circuit board 55. In this way, the first circuit board 20 is electrically connected to the second circuit board 55 through the electrical connector, realizing the electrical connection between the first circuit board 20 and the three electrolysis rods 40.

In this embodiment, the press cake 54 is provided with three first jacks (no referring number in the figures), the top of the three electrolysis rods 40 are stretched into the three first jacks separately. Inside the bottom plate 52 is set with three second jacks (no referring number in the figures), the bottom of three electrical rods 40 are disposed into the three second jacks separately.

Further, hydrogen-rich water stick further comprises an upper bracket 60. The upper bracket 60 is inserted from the top of the upper shell 11. The first circuit board 20 is disposed inside the upper shell 60. The first circuit board 20 is set with USB charging terminal 21. The upper bracket 60 is set with USB charging interface 61. The USB charging terminal 21 is disposed into the USB charging interface 61. By setting the USB charging interface 61, the hydrogen-rich water stick can be charged through the USB charging interface. Nowadays, people's life and work rely on computers, also the water. Most time of people's daily life are spent in front of computers, the USB charging structure can make it easy to use hydrogen-rich water sticks anytime and anywhere when they are drinking. The hydrogen-rich water sticks can be charged anytime and anywhere as well.

Further, referring to FIG. 5, the hydrogen-rich water sticks further comprises a charging base 70 which is electrically connected with external source. The charging base 70 is set with a socket 71. The shell 10 is inserted into the socket 71 after being converted. The socket 71 is provided with a charging touch piece (not shown in the FIGS). The first circuit board 20 is provided with a charging terminal 22 which is electrically connected with the charging touch piece. Setting the charging base 70, not only providing one more charging method, but also providing a receiving function. When the hydrogen-rich water stick is not in use, the shell 10 can be inserted into the charging base directly, especially in work environment, avoiding dropping down or missing because of placing on the desk at will. Furthermore, the coordination of the hydrogen-rich water stick and the charging base 70 can also beautify the office desk.

In the present embodiment, inside the upper bracket 60 is provided with a light blocking member 80. The light blocking member 80 is fixed with an indicating light 81 for indicating charging state. The upper shell 11 is provided with a through hole (no referring number in the FIGS). The indicating light 81 is stretched out from the through hole. There are a plurality of indicating lights 81 (in the present embodiment, there are three). The three indicating lights 81 are provided in parallel from upper to lower. When being charged, the number of the lightened indicating lights is in direct proportion to the charge level. Namely, when starting charging, there is only one indicating light 81 is lightened. Continue charging, the other indicating lights 81 are lightened continuously. When the three indicating lights 81 are all lightened, means the charging is completed, at which time the user can stop charging according to the reminder. Certainly, reminding whether the charging is completed through the colour of the indicating lights 81 is also feasible.

In the present embodiment, the top of the upper bracket 60 is provided with a touch switch 90 which is electrically connected with the first circuit board 20. The touch switch 90 has a quick response, which is easy to power on or off.

The foregoing examples are preferred embodiments of the present invention only and not intended to limit the present disclosure. It should be understood that, to the person skilled in the art, various modifications and improvements can be made without departing from the spirit and principle of the present disclosure, which should all be included within the scope of the present disclosure. 

We claim:
 1. A hydrogen-rich water stick, comprising: a shell; a first circuit board disposed in the shell; a battery connected with the first circuit board; and three electrolysis rods disposed in the shell and connected with the first circuit board; wherein the three electrolysis rods work alternatively with one anode and two cathodes or one cathode and two anodes under the control of the first circuit board.
 2. The hydrogen-rich water stick of claim 1, further comprising a electrolysis rod stand, wherein the electrolysis rod stand comprises a top base, a bottom plate and three side plates connected between the top base and the bottom plate, the three side plates are set in interval, the three electrolysis rods are fixed to the inner side of the three side plates separately.
 3. The hydrogen-rich water stick of claim 2, wherein the shell comprises an upper shell and a lower shell, a top base of the electrolysis rod stand is locking connected to a bottom of the upper shell; a lower part of the top base, the three side plates and bottom plate stretch into the lower shell; and a top of the lower shell and the lower part of the top base are in detachable connection.
 4. The hydrogen-rich water stick of claim 3, wherein the first circuit board is located on an upper part of the upper shell; the battery is disposed below the first circuit board, a bottom of the battery disposed into the top base; a press cake is disposed into the top base, the press cake is provided with a second circuit board which is electrically connected with the three electrolysis rods; the first circuit board is set with an electrical connector which may stretch downward to electrically connect to the second circuit board.
 5. The hydrogen-rich water stick of claim 4, wherein the press cake is provided with three first jacks, a top of the three electrolysis rods are stretched into the three first jacks separately; the bottom plate is provided with three second jacks inside the bottom plate, a bottom of three electrical rods are disposed into the three second jacks separately.
 6. The hydrogen-rich water stick of claim 4, further comprising a upper bracket; wherein the upper bracket is inserted from the top of the upper shell; the first circuit board is disposed inside the upper shell, the first circuit board is set with a USB charging terminal; the upper bracket is set with a USB charging interface; the USB charging terminal is disposed inside the USB charging interface.
 7. The hydrogen-rich water stick of claim 1, further comprising a charging base which is electrically connected with external source; wherein the charging base is provided with a socket; the shell is inserted into the socket after being converted; the socket is provided with a charging touch piece; the first circuit board is provided with a charging terminal which is electrically connected with the charging touch piece.
 8. The hydrogen-rich water stick of claim 6, wherein the upper bracket is provided with a light blocking member, the light blocking member is fixed with an indicating light for indicating charging state; the upper shell is provided with a through hole.
 9. The hydrogen-rich water stick of claim 1, wherein a top of the shell is provided with a touch switch which is electrically connected to the first circuit board.
 10. The hydrogen-rich water stick of claim 1, wherein an external structure of the shell is a handheld rod shape structure.
 11. The hydrogen-rich water stick of claim 5, further comprising a upper bracket; wherein the upper bracket is inserted from the top of the upper shell; the first circuit board is disposed inside the upper shell, the first circuit board is set with a USB charging terminal; the upper bracket is set with a USB charging interface; the USB charging terminal is disposed inside the USB charging interface.
 12. The hydrogen-rich water stick of claim 11, wherein the upper bracket is provided with a light blocking member, the light blocking member is fixed with an indicating light for indicating charging state; the upper shell is provided with a through hole. 